REMBERTUS ABRAHAM DUINE - CURRICULUM VITAE

(last update: August 20, 2019)

• contact and personal informationName: Prof. dr. R.A. (Rembert) Duine

Address: Utrecht UniversityFaculty of Science: Physics and AstronomyInstitute for Theoretical PhysicsPrincetonplein 53584 CC UtrechtThe Netherlands

Phone: ++31(0)30-2532289

Fax: ++31(0)30-2535937

E-mail: R.A.Duine@uu.nl

WWW: https://www.uu.nl/staff/raduine

Born: March 2nd, 1975 in Oud-Alblas, The Netherlands

Nationality: Dutch

Marital Status: Not married, living together with Geertje Speelman and our son Reijn.

Researcher ID: F-3559-2016

• educationOctober 27, 2003 Ph. D. in theoretical physics (cum laude) at Utrecht University, The Netherlands.

Thesis title: Atom-Molecule Coherence in Bose GasesPromotor: Prof. dr. ir. H.T.C. Stoof

1999 Master’s degree in theoretical physics at Utrecht University, The Netherlands.Thesis title: Mappings and Simulations of the Repton Model and the Six-vertex ModelSupervisor: Dr. G.T. Barkema

1994 VWO-diploma, Christelijke Scholengemeenschap “De Lage Waard”, Papendrecht, TheNetherlands.

• professional career08/2019-present Full professor at Utrecht University on the chair “Theory of Nanoscale Systems”.

03/2016-present part-time professor (“deeltijd hoogleraar”) at Eindhoven University of Technology on thechair “Theory for spin-based nanoelectronics”.

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12/2012-present “Universitair Hoofddocent” (Dutch equivalent of Associate Prof.) at Utrecht University.

3/2008-11/2012 “Universitair Docent” (Dutch equivalent of Assist. Prof.) at Utrecht University.

9/2006-2/2008 “Junior Universitair Docent” (Dutch equivalent of Assist. Prof.) at Utrecht University.

1/2004-8/2006 Post-doctoral fellow in the condensed-matter theory group of Prof. dr. A.H. MacDonaldat The University of Texas at Austin.

11/1999-12/2003 Research Assistant (AIO) at the Institute for Theoretical Physics,Utrecht University, The Netherlands.

• research interestsmain field: condensed-matter physics, many-body physics.

current interests: spintronics, graphene, topological insulators, cold-atom systems.

other interests: quantum Hall ferromagnets, semi-conductor bilayers, superconductivity

• external funding2019 NWO Innovational Research Incentives Scheme (“VICI”) grant for the proposal

Fluid Spintronics.

2016 ERC Consolidator Grant for the proposal Spin Transport Beyond Electrons.

2014 Program leader of the FOM program Magnon Spintronics; co-applicants: G.E.W. Bauer,B.J. van Wees and T.T.M. Palstra.

2014 FOM Projectruimte SKYRMIONICS - towards skyrmions for nanoelectronics, with H.J.M.Swagten.

2013 Ph. D. project within the NWO Zwaartekracht DITP Dynamics of topological spin texturesin disordered media, with G. Barkema and V. Vitelli.

2010 FOM Projectruimte Spin drag in Bose gases, with H. Stoof and P. van der Straten.

2009 Project on controlling domain-wall dynamics in the FOM program Controlling Spin Dy-namics in Magnetic Nanostructures (program leader: Th. Rasing, Nijmegen).

2008 ERC Starting Independent Researcher Grant for the proposal NewSpin: New Frontiers in Spintronics.

2007 NWO Innovational Research Incentives Scheme (“VIDI”) grant for the proposalAntiferromagnetic Metal Spintronics.

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• teaching/supervisionLectures

Spring 2019 One lecture and project supervision for the course Nanospintronics at Eindhoven Univer-sity of Technology.

Spring 2019 Master’s course Field Theory in Condensed Matter (with Dirk Schuricht).

Spring 2019 Bachelor course Classical Field Theory.

Spring 2019 One guest lecture on spintronics in the bachelor course Moderne Gecondenseerde Materie.

Spring 2018 One guest lecture for the bachelor course Quantum Matter.

Spring 2018 One lecture in the course Nanospintronics at Eindhoven University of Technology.

December 2017 One guest lecture on spintronics in the bachelor course Moderne Gecondenseerde Materie.

Fall 2017 Bachelor course Advanced Quantum Mechanics.

2017 Third place for the “Lecturer of the year” award from the “Studenten Overleg Natuur- enSterrenkunde” in category second and third year bachelor courses.

Spring 2017 One lecture in the course Nanospintronics at Eindhoven University of Technology.

Fall 2016 Student Seminar on quantum computation and information in the Masters Program The-oretical Physics at Utrecht University (with Umut Gursoy).

Fall 2016 Bachelor course Advanced Quantum Mechanics.

December 2016 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

August 2016 Topics in Statistical Physics, part 2 at the Utrecht Summer School in Theoretical Physics.

Spring 2016 Bachelor course Classical Field Theory (with Dirk Schuricht).

December 2015 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

Fall 2015 Bachelor course Advanced Quantum Mechanics.

Fall 2014 Bachelor course Advanced Quantum Mechanics.

December 2014 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

August 2014 Topics in Statistical Physics, part 2 at the Utrecht Summer School in Theoretical Physics.

Spring 2014 Quantum Matter (with Dirk Schuricht).

2014 Received “Lecturer of the year” award from the “Studenten Overleg Natuur- en Ster-renkunde” in category second and third year bachelor courses.

Fall 2013 Bachelor course Advanced Quantum Mechanics.

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August 2013 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

2013-2017 Coordinator of the Physics honours programme.

December 2013 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

Fall 2012 Supervised/lectured the Student Seminar Ultracold Quantum Gases in the Masters Pro-gram Theoretical Physics at Utrecht University.

Fall 2012 Statistical Field Theory in the Masters Program Theoretical Physics at Utrecht University.

December 2012 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

August 2012 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

Spring 2012 Two lectures in the course Field Theory in Condensed Matter 2 in the Masters ProgramTheoretical Physics at Utrecht University.

December 2011 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

Fall 2011 Statistical Field Theory in the Masters Program Theoretical Physics at Utrecht University.

August 2011 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

Spring 2011 Four lectures in the course Field Theory in Condensed Matter 2 in the Masters ProgramTheoretical Physics at Utrecht University.

December 2010 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

August 2010 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

Fall 2010 Statistical Field Theory in the Masters Program Theoretical Physics at Utrecht University.

August 2010 Senior University Teaching Qualification (SKO).

Spring 2010 Lecturer of (with Henk Stoof, and Cristiane de Morais Smith) the course Field Theory inCondensed Matter in the Masters Program Theoretical Physics at Utrecht University.

Fall 2009 Statistical Field Theory in the Masters Program Theoretical Physics at Utrecht University.

December 2009 One guest lecture on spintronics in the course Moderne Gecondenseerde Materie.

August 2009 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

Spring 2009 Spintronics in the Masters Program Theoretical Physics at Utrecht University.

1-3 April, 2009 Invited lecturer at the DRSTP Postgraduate AIO/OIO School 2009 on Statistical Physicsand Theory of Condensed Matter (SPTCM). Lectured the course Theory of Spin Transfer(6 lecture hours).

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Fall 2008 Half of the third-year bachelor course Thermische Fysica 2 (together with G. Barkema).

August 2008 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

Spring 2008 Contact person for, and lecturer of (together with Allan MacDonald, Henk Stoof, and Cris-tiane de Morais Smith), the course Quantum Fields in Condensed Matter in the MastersProgram Theoretical Physics at Utrecht University.

Fall 2007 Set up and supervised/lectured the Student Seminar Ultracold Quantum Gases in theMasters Program Theoretical Physics at Utrecht University.

November 2007 Basic University Teaching Qualification (BKO).

August 2007 Second part of the course Topics in Statistical Physics at the Utrecht Summer School inTheoretical Physics.

Spring 2007 Set up and lectured the course Spintronics in the Masters Program Theoretical Physics atUtrecht University.

Spring 2006 Substitute lecturer Physics 302 K: General physics at The University of Texas at Austin(3 lectures).

Spring 2005 One lecture of the freshman course Physics For Engineers, replacing A.H. MacDonald.

Fall 2004 Substitute lecturer for the graduate course Solid State Physics at The University of Texasat Austin (5 lectures).

2001/2002 Teaching assistant for the course Statistical Field Theory at Utrecht University.

1999-2001 Teaching assistant for the course Quantum Mechanics 2 at Utrecht University.

(Co-)supervised bachelor thesis of:

1. Julius Krebbekx, Current-Driven Magnetic Instabilities: Towards realizing magnonicblack hole analogues, 2019. (At Eindhoven University of Technology.)

2. Bram Zande, The shape of a magnonic black hole horizon, 2019.

3. Koen Wuite, The effect of spin transfer torques on spin waves, 2018. (At EindhovenUniversity of Technology.)

4. Stijn Claerhoudt, Spin-Cherenkov radiation caused by a magnonic black or white hole,2018.

5. Nils Warsen, Analogue gravity with magnons, 2018.

6. Amber Heskes, Manipulation of spin wave propagation in RKKY coupled systems,2018. (At Eindhoven University of Technology.)

7. Tjacco Koskamp, The influence of Dzyaloshinskii-Moriya interaction and spin-orbittorques on the current driven spin-Cherenkov effect, 2018. (At Eindhoven Universityof Technology.)

8. Wesly Chu, Influence of spin currents on ultrafast magnetization dynamics, 2017. (AtEindhoven University of Technology.)

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9. Mathieu de Kruijf, Spin waves and the spin Cherenkov effect, 2017. (At EindhovenUniversity of Technology.)

10. Joren Harms, Quantum dynamics of skyrmions and vortices in antiferromagnets,2017; Joren was awarded the EMMEPH Thesis Prize for this Thesis.

11. Daan Peerlings, Magnon contribution to unidirectional spin Hall magnetoresistance,2017.

12. Thomas Flöss, Quantum fluctuations and magnon-magnon interactions in antiferro-magnets, 2016.

13. Thijs Kieboom, Spin transport after ultra-fast demagnetization, 2016.

14. Ruben Meijs, The electrically driven magnon Hall effect in YIG/Pt heterostructures,2016.

15. Lars de Ruiter, Magnon kinetics in thin-film magnetic insulators, 2016.

16. Jan Mulder, Superconductivity and Spin Superfluidity, 2016.

17. Hendrik Snijder, Landau-Lifshitz-Gilbert Theory of Spin Current Transmission ThroughFerromagnets, 2016.

18. Damian van de Heisteeg, Quantum fluctuations and phase transitions in antiferro-magnetic spin configurations, 2016.

19. Solange Schrijnder van Velzen, Quantum fluctuations in antiferromagnetic spin con-figurations, 2016.

20. Mark Raaijmakers, Inhomogeneous groundstates in antiferromagnets with Dzyaloshinskii-Moriya interaction, 2015.

21. Sacha Baerends, Phase diagram and stability of skyrmion configurations in anti-ferromagnetic materials lacking inversion symmetry, 2015.

22. Patrick van Dieten, Quantum fluctuations and degeneracies of two-dimensional mag-netic skyrmions, 2015.

23. Maarten Beens, Current-driven skyrmion motion in antiferromagnets, 2015.

24. Koen Stemerdink, Thermal spin transport and electron-magnon interactions in easy-plane ferromagnets, 2015.

25. Kevin Peters, Magnon-mediated current drag in the semiclassical regime, 2015.

26. Alex Cleton, Effects of magnons on spin transport in ferromagnetic metals, 2015.

27. Victor Dagnelie, Superfluid and Mott insulating phases of magnons in an easy-planeferromagnetic insulator, 2014.

28. Quint-Hein Enneking, Phase diffusion in a Bose-Einstein condensate of magnons,2014.

29. Dion Hartmann, Domain-Wall Motion in Materials with Perpendicular MagneticAnisotropy, 2014; Dion also won the Utrecht-Eindhoven Science and TechnologyAward in 2013.

30. Sjoerd Jan Venema, Magnetic phase diagrams of spin systems with inversion asym-metry, 2014.

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31. Laurens Stronks, Transverse spin injection: from scattering theory to skyrmions,2014.

32. Maxime Jonker, Density of States of quasi-equilibrium Bose-Einstein condensed magnonsin YIG, 2014.

33. Serop Lazarian, Skyrmion Dynamics in Thin Films with Perpendicular MagneticAnisotropy, 2014.

34. Marianne Knoester, Skyrmions driven by the spin Hall effect, 2013.

35. Han van den Berg, Influence of the Dzyaloshinskii-Moriya interaction on the proper-ties of domain walls in magnetic nanowires, 2013.

36. Peter Kristel, Domain-wall motion in layered materials, 2013.

37. Peer Fisser, Pseudo-spin transport in cold-atom systems, 2013.

38. Stefan Korenberg, Light-Induced Magnetic Fields for Neutral Atoms, 2013.

39. Rob van den Berg, Motion of a ferromagnetic domain wall under influence of anelectromagnetic field, 2012.

40. N.H. Reinerink, Domain walls and spin-orbit coupling, 2010.

(Co-)supervised master thesis of:

1. Jan Mulder, Statistical-physics models for fluctuations and emergent inequality ineconomic systems, 2019.

2. Sacha Baerends, Phenomenological theory of spin hydrodynamic generation, 2019.

3. Maarten Beens, Microscopic theory for ultrafast magnetization dynamics, 2017.

4. Quint-Hein Enneking, The magnon-drag Peltier effect, 2017.

5. Wiet van Lanschot, Influence of Dzyaloshinskii-Moriya Interaction on Spin Wavesand Magnon Spin Transport, 2017.

6. Maxim Faber, Vortices in p-wave superconductors, 2017.

7. Ilias Samathrakis, Thermal Magnon Hall Effect in FM/AFM Skyrmionic Structures,2016

8. Sjaak van Diepen, Stability of a magnon Bose-Einstein condensate, 2016.

9. Bram van Dijk, Skyrmions and the Dzyaloshinskii-Moriya Interaction, 2014.

10. Erik van der Wurff, Number Fluctuations and Phase Diffusion in a Bose-EinsteinCondensate of Light.

11. Oliver Hijano Cubelos, Current induced torques and transport in Rashba ferromagnets,2012.

12. V.P.J. Jacobs, Kubo Formalism for Spin Drag in an Atomic Fermi Gas, 2011 (withHenk Stoof).

13. R. Kittinaradorn, Critical Spin transport in Bose Gases, 2011.

14. H.J.R. van Tuyll, Spin transfer in helical magnets, 2009.

15. H.J. van Driel, Models for Current-Driven Domain Wall Motion, 2008.

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16. M.P. Mink, Pinning of Vortex Lattices in Single and Multicomponent Bose-EinsteinCondensates by an Optical Potential.

17. M.E. Lucassen, Rigid Domain-Wall Motion.

18. A. Swaving, Magnetization Relaxation in Disordered Ferromagnets, 2008.

19. B. Zoetekouw, Damping of collective modes in Bose-Einstein condensates, 2002.

20. B.W.A. Leurs, Dissipative Dynamics of a Vortex in a Bose-Einstein Condensate,2002.

21. F. van Belle, Theories of Feshbach Resonances in Atomic Bose-Einstein Condensates,2003.

22. N. de Keijzer, Atom-molecule Coherence near a Feshbach resonance, 2003.

23. B.H.M. Vlaar, Coherent Atom-molecule Oscillations, 2003.

(Co-)supervised Ph. D. thesis of:

1. Jiansen Zheng, Spin and Heat Transport Beyond Electrons: Ferromagnetic Insulatorsand Antiferromagnetic Metals, (March 20, 2019, funded by a CSC Scholarship andthe ERC Consolidator Grant).

2. R. Keesman, Topological Phases and Phase Transitions in Magnets and Ice, LeidenUniversity, (June 7, 2017, funded by D-ITP).

3. B. Flebus, Collective spin and heat transport through magnetic systems, Utrecht Uni-versity (April 10, 2017, co-funded by NWO VIDI).

4. A.-W. de Leeuw, Many-body phenomena in a Bose-Einstein condensate of light,Utrecht University (June 22, 2016, co-funded by ERC Starting Grant).

5. J. Armaitis, Hydrodynamics of Bose gases with internal degrees of freedom, UtrechtUniversity (June 3, 2015, funded by FOM project).

6. E. van der Bijl, Spin currents and magnetization dynamics in multilayer systems,Utrecht University (January 28, 2014, funded by FOM program).

7. H.J. van Driel, Spin transport in Bose gases, Utrecht University (December 12, 2012,funded by ERC Starting Grant).

8. M.P. Mink, Pseudospin pairing and transport in atomic Fermi gases and bilayer sys-tems, Utrecht University (September 12, 2012, funded by ERC Starting Grant)

9. M.E. Lucassen, Coupling between Current and Dynamic Magnetization: from DomainWalls to Spin Waves, Utrecht University (May 16, 2012, funded by NWO VIDI).

10. A.C. Swaving, Spin Transport and Dynamics in Antiferromagnetic Metals and Mag-netic Insulators, Utrecht University (March 2, 2012, funded by NWO VIDI).

• other professional activities2019 Member of the program committee of the conference Spin Caloritronics X (Groningen,

March 20-24, 2019).

2019 Member of the NWO-Veni selection committee.

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Fall 2019 Rector’s League guest lecture at the “Leidsche Rijn College”

2018- Diversity coordinator of the Institute for Theoretical Physics, Utrecht University.

2018 Set up the outreach website www.natuurkundetop10.nl (with Dion Hartmann).

May 2018 Organized meeting on “Spintronics and Nanomagnetism in The Netherlands” (29,30 May,2018, Nijmegen), with Theo Rasing.

2017 Member of the NWO-Veni selection committee.

2017- Associate Member of the QuSpin Center, NTNU.

September 2016 Co-organizer (with Y. Tserkovnyak and Jairo Sinova) of the workshop “Quantum Spin-tronics” at the SPICE center in Mainz, Germany, September 21-23.

July 2016 Local organizer for the Seventh Edition of the international workshop series on SpinCaloritronics.

Spring 2016 Member of the Physics Department Committee on the goals and assessment of the BachelorThesis Project.

January 2016 Organizer (with Dirk Schuricht) of the focus session “Transport Beyond Electrons” atPhysics@FOM Veldhoven.

December 2015 Co-organizer of the conference NewSpin4: Transport Beyond Electrons, Utrecht, TheNetherlands, December 14-16, 2015.

2015- Co-organizer (with Umut Gursoy) of the Utrecht Summer School Theoretical Physics.

2015- Board member of the “Natuurkundig Gezelschap te Utrecht”

2015- Member of FOM committee on Condensed Matter and Optical Physics (“COMOP”).

August 2014 Co-organizer (with Umut Gursoy and Gleb Arutyunov) of the Utrecht Summer SchoolTheoretical Physics.

2014-2016 Chair of Bachelor and Master Theses intervision committee of the Physics Department ofUtrecht University.

2014- FOM program leader of the program Magnon Spintronics.

2014- Spin Phenomena Interdisciplinary Center (SPICE at Johannes Gutenberg University Mainz)advisory board member.

2014 Member of the focusgroup valorization of the Rathenau Institute.

March 2014 Organization (with V. Vitelli) of the DRSTP School on condensed matter and statisticalphysics.

2013/2014 Member of the committee for the FOM best physics Ph.D. thesis award.

2013 Initiator (and organizer until 2017) of the Condensed-Matter Theory group meeting andseminar.

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www.natuurkundetop10.nl

2013 Co-organizer of the conference NewSpin3: From model systems to complex matter, Mainz,Germany, April 2-9, 2013.

2013-2016 Member of Advisory Editorial Board of Journal of Physics: Condensed Matter.

March 2013 Organization (with V. Vitelli) of the DRSTP School on condensed matter and statisticalphysics.

January 2013 Organizer of the focus session “Spin Caloritronics” at Physics@FOM Veldhoven.

2012/2014 Member of the internal peer review committee for ERC starting and consolidator grantsin sciences and geosciences at Utrecht University.

2012- Member of the Young Academy of Europe.

2011/2012 Chair of the search committee for an assistant-professorship-appointment in quantum-condensed matter theory.

March 2012 Organization (with V. Vitelli) of the DRSTP School on condensed matter and statisticalphysics.

2011 Co-organizer of the conference NewSpin2: Spin physics and topological effects in coldatoms, condensed matter, and beyond, College Station (TX, USA), December 12-17, 2011.

March 2011 Organization (with C. Storm) of the DRSTP School on condensed matter and statisticalphysics.

2010 Organization, together with H. Stoof, of the conference NewSpin, Utrecht 2010: SpinManipulation in Cold Atoms and Condensed Matter, Utrecht, January 6-9, 2010.

2010 Member of the scientific committee regarding Utrecht University Museum exhibition “Mas-ter The Universe”.

2006-2014 Member of the Teaching Advisory Committee (Onderwijs Advies Commissie) of the Physicsand Astronomy Department (OAC-NS). (Chair from 2009.)

• publications

• highlighted publications

• Scott A. Bender, Akashdeep Kamra, Wolfgang Belzig, Rembert A. Duine, Spin currentcross-correlations as a probe of magnon coherence, arXiv:1811.10001 [cond-mat.mes-hall],Phys. Rev. Lett. 122, 187701 (2019); this paper applies ideas from quantum optics tomagnons to propose how to probe magnon coherence. It was discussed in a Viewpointarticle in Physics and at phys.org.

• R. Lebrun, A. Ross, S. A. Bender, A. Qaiumzadeh, L. Baldrati, J. Cramer, A. Brataas, R.A. Duine, M. Kläui, Electrically controlled long-distance spin transport through an anti-ferromagnetic insulator, Nature 561, 222-225 (2018); this paper is the first demonstrationof long-range spin transport through an antiferromagnetic insulator. See the accompany-ing News and Views, the press release, an article in the Volkkrant, listen to a podcast onBNR, and/or check out this instagram post by NOSop3.

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https://physics.aps.org/articles/v12/49https://phys.org/news/2019-05-method-magnon-coherence-solid-state-devices.htmlhttps://www.nature.com/articles/d41586-018-06197-4https://www.uu.nl/nieuws/snellere-en-minder-warme-computers-dankzij-roesthttps://www.volkskrant.nl/wetenschap/roest-cruciaal-onderdeel-supersnelle-en-stabielere-computer-van-de-toekomst~bc2dd788/https://www.bnr.nl/podcast/wetenschap-vandaag/10354090/roest-kan-computers-sneller-en-minder-warm-makenhttps://www.instagram.com/p/BoOvLKmighb/?utm_source=ig_share_sheet&igshid=11yum0918ogk1

• A . Roldan-Molina, A.S. Nunez, and R.A. Duine, Magnonic black holes, Phys. Rev. Lett.118, 061301 (2017); this work is the first to give a concrete proposal for implementingevent horizons for spin waves. It was mentioned as a research highlight in Nature Physics13, 1 (2017). For the university press release, see here. For an article in the Volkskrant,see here.

• B. Flebus, S. A. Bender, Y. Tserkovnyak, and R. A. Duine, Two-Fluid Theory for SpinSuperfluidity in Magnetic Insulators, Phys. Rev. Lett. 116, 117201 (2016); this paperprovides a unified theoretical description of coherent (superfluid) and incoherent (thermal)spin transport carried by magnons that is rooted in a microscopic theory.

• L.J. Cornelissen, J. Liu, R.A. Duine, J. Ben Youssef, B.J. Van Wees, Long distance trans-port of magnon spin information in a magnetic insulator at room temperature, NaturePhysics 11, 1022 (2015); This paper is the first to demonstrate spin currents through amagnetic insulator. My group contributed by developing its theoretical description thatunifies magnon and electron spin transport. I expect this paper to be among the definingpublications of magnon spintronics, the field which holds the prospect of achieving room-temperature transfer of information without dissipation. See here for the FOM pressrelease. Here you can find a short radio item of BNR about this work, and here you canfind a short piece in the Digitaal U-Blad.

• Scott A. Bender, R. A. Duine, and Yaroslav Tserkovnyak, Electronic Pumping of Quasiequi-librium Bose-Einstein Condensed Magnons, Phys. Rev. Lett. 108, 246601 (2012); thispaper considers the possibility of integrating metal spintronics with magnon Bose-Einsteincondensation and magnon superfluidity.

• F. Jonietz, S. Mühlbauer, C. Pfleiderer, A. Neubauer, W. Münzer, A. Bauer, T. Adams,R. Georgii, P. Böni, R. A. Duine, K. Everschor, M. Garst, and A. Rosch, Spin TransferTorques in MnSi at Ultra-low Current Densities, Science 330, 1648 (2010); this paperis the first to demonstrate spin-transfer torques in chiral magnets, in particular in theskyrmion lattice phase. The critical currents are several order of magnitude lower thanwhat was previously achieved, and the finding of this paper led to the field of “skyrmionics”,spintronics with skyrmions.

• R.A. Duine and H.T.C. Stoof, Spin drag in noncondensed Bose gases, Phys. Rev. Lett.103, 170401 (2009); this article is among the first to consider spintronics-like physics incold-atom systems. Its predictions were in excellent agreement with experiments carriedout in the group of Peter van der Straten, see arXiv:1204.6143v2 [cond-mat.quant-gas].

• A.S. Núñez, R.A. Duine, P.M. Haney, and A.H. MacDonald, Theory of spin torques andgiant magnetoresistance in antiferromagnetic metals, Phys. Rev. B 73, 214426 (2006);this paper essentially opened a new subfield of physics now dubbed “AntiferromagneticSpintronics”.

• J.W. Reijnders and R.A. Duine, Pinning of vortices in a Bose-Einstein condensate by anoptical lattice, Phys. Rev. Lett. 93, 060401 (2004); this article is the first to proposevortex pinning in atomic Bose-Einstein condensates. This is my first publication thatdoes not involve my Ph. D. supervisor, and its theoretical predictions were experimentally

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https://www.uu.nl/en/news/black-holes-on-an-electronic-chiphttps://www.volkskrant.nl/wetenschap/een-zwart-gat-bestuderen-kan-straks-misschien-op-een-chip-in-het-lab~bd3dcc35/https://www.nwo-i.nl/nieuws/2015/09/14/eerste-elektrische-schakeling-met-magnetische-isolator-dankzij-spingolven/https://www.bnr.nl/radio/bnr-spitsuur/wetenschap-vandaag/10041914/plastic-en-koper-toch-op-dezelfde-golflengtehttps://www.dub.uu.nl/nl/nieuws/doorbraak-utrechtse-natuurkundigen-kan-leiden-tot-snellere-computerchips

confirmed a few years later in the group of Nobel laureate Eric Cornell [Phys. Rev. Lett.97, 240402 (2006)].

• preprints

1. Andrew Ross, Romain Lebrun, Olena Gomonay, Daniel A. Grave, Asaf Kay, Lorenzo Bal-drati, Sven Becker, Alireza Qaiumzadeh, Camilo Ulloa, Gerhard Jakob, Florian Kronast,Jairo Sinova, Rembert Duine, Arne Brataas, Avner Rothschild, Mathias Kläui, Efficientmagnonic transport and domain wall landscape of insulating antiferromagnetic thin films,arXiv:1907.02751 [cond-mat.mtrl-sci].

2. Oyvind Johansen, Akashdeep Kamra, Camilo Ulloa, Arne Brataas, Rembert A. Duine,Magnon-Mediated Indirect Exciton Condensation through Antiferromagnetic Insulators,arXiv:1904.12699 [cond-mat.mes-hall].

3. Akashdeep Kamra, Even Thingstad, Gianluca Rastelli, Rembert A. Duine, Arne Brataas,Wolfgang Belzig, Asle Sudbo, Antiferromagnetic Magnons as Highly Squeezed Fock Statesunderlying Quantum Correlations, arXiv:1904.04553 [cond-mat.mes-hall].

4. Juriaan Lucassen, Marille J. Meijer, Fabian Kloodt-Twesten, Robert Frmter, Oleg Kurnosikov,Rembert A. Duine, Henk J. M. Swagten, Bert Koopmans, Reinoud Lavrijsen, Tuning mag-netic chirality by dipolar interactions, arXiv:1904.01898 [cond-mat.mes-hall].

5. Camilo Ulloa, A. Tomadin, J. Shan, M. Polini, B. J. van Wees, R. A. Duine, Non-localspin transport as a probe of viscous magnon fluids, arXiv:1903.02790 [cond-mat.mes-hall].

6. Dion M. F. Hartmann, Rembert A. Duine, Mariëlle J. Meijer, Henk J. M. Swagten, ReinoudLavrijsen, Creep of Chiral Domain Walls, arXiv:1812.09055 [cond-mat.mes-hall].

7. Fanny C. Ummelen, Tijs A. Wijkamp, Tom Lichtenberg, Rembert A. Duine, Bert Koop-mans, Henk J. M. Swagten, Reinoud Lavrijsen, Anomalous direction for skyrmion bubblemotion, arXiv:1807.07365 [cond-mat.mtrl-sci].

• scientific publications in refereed journals

1. Mark L. M. Lalieu, Reinoud Lavrijsen, Rembert A. Duine, Bert Koopmans, Investigatingoptically-excited THz standing spin waves using noncollinear magnetic bilayers, Phys. Rev.B 99, 184439 (2019).

2. Etienne van Walsem, Rembert A. Duine, Juriaan Lucassen, Reinoud Lavrijsen, Henk J. M.Swagten, Structural transitions of skyrmion lattices in synthetic antiferromagnets, Phys.Rev. B 100, 064402 (2019).

3. Juriaan Lucassen, Casper F. Schippers, Luuk Rutten, Rembert A. Duine, Henk J. M.Swagten, Bert Koopmans, Reinoud Lavrijsen, Optimizing propagating spin wave spec-troscopy, Appl. Phys. Lett. 115, 012403 (2019); this paper was selected as “Editor’spick”.

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4. Romain Lebrun, Andrew Ross, Olena Gomonay, Scott Bender, Lorenzo Baldrati, FlorianKronast, Alireza Qaiumzadeh, Jairo Sinova, Arne Brataas, Rembert Duine, Mathias Kläui,Anisotropies and magnetic phase transitions in insulating antiferromagnets determined bya Spin-Hall magnetoresistance probe, Communications Physics 2, 50 (2019).

5. Scott A. Bender, Akashdeep Kamra, Wolfgang Belzig, Rembert A. Duine, Spin currentcross-correlations as a probe of magnon coherence, arXiv:1811.10001 [cond-mat.mes-hall],Phys. Rev. Lett. 122, 187701 (2019).

6. Chuanpu Liu, Shizhe Wu, Jianyu Zhang, Jilei Chen, Jinjun Ding, Ji Ma, Yuelin Zhang,Yuanwei Sun, Sa Tu, Hanchen Wang, Pengfei Liu, Chexin Li, Yong Jiang, Peng Gao,Dapeng Yu, Jiang Xiao, Rembert Duine, Mingzhong Wu, Ce-Wen Nan, Jinxing Zhangand Haiming Yu, Current-controlled propagation of spin waves in antiparallel, coupleddomains, Nature Nanotechnology 14, 691697 (2019).

7. Roberto E. Troncoso, Arne Brataas, Rembert A. Duine, Many-body theory of spin-currentdriven instabilities in magnetic insulators, arXiv:1809.06738 [cond-mat.mes-hall], Phys.Rev. B 99, 104426 (2019).

8. Terufumi Yamaguchi, Hiroshi Kohno, Rembert A. Duine, Microscopic theory of magnon-drag electron flow in ferromagnetic metals, arXiv:1812.00720 [cond-mat.mes-hall], Phys.Rev. B 99, 094425 (2019).

9. Jing Liu, Frank Feringa, Benedetta Flebus, Ludo J. Cornelissen, Johannes C. Leutenantsmeyer,Rembert A. Duine, Bart J. van Wees, Microwave control of thermal magnon spin transport,Phys. Rev. B 99, 054420 (2019).

10. W. P. Sterk, D. Peerlings, R. A. Duine, Magnon contribution to unidirectional spin Hallmagnetoresistance, Phys. Rev. B 99, 064438 (2019).

11. Scott A. Bender, Rembert A. Duine, Yaroslav Tserkovnyak, Quantum spin-transfer torqueand magnon-assisted transport in nanostructures, Phys. Rev. B 99, 024434 (2019).

12. R. J. Doornenbal, A. Roldan-Molina, A. S. Nunez, R. A. Duine, Spin-wave amplificationand lasing driven by inhomogeneous spin transfer torques, Phys. Rev. Lett. 122, 037203(2019).

13. Ruben J. Doornenbal, Marco Polini, R.A. Duine, Spin-vorticity coupling in viscous electronfluids, J. Phys.: Mater. 2, 015006 (2019).

14. R. Lebrun, A. Ross, S. A. Bender, A. Qaiumzadeh, L. Baldrati, J. Cramer, A. Brataas,R. A. Duine, M. Kläui, Electrically controlled long-distance spin transport through anantiferromagnetic insulator, Nature 561, 222-225 (2018).

15. I. A. Ado, A. Qaiumzadeh, R. A. Duine, A. Brataas, M. Titov, Asymmetric and symmetricexchange in a generalized 2D Rashba ferromagnet, Phys. Rev. Lett. 121, 086802 (2018).

16. Maarten Beens, Joseph P. Heremans, Yaroslav Tserkovnyak, R. A. Duine, Magnons versuselectrons in thermal spin transport through metallic interfaces, J. Phys. D: Appl. Phys.51, 394002 (2018).

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17. Alireza Qaiumzadeh, Ivan A. Ado, Rembert A. Duine, Mikhail Titov, Arne Brataas, The-ory of Interfacial Dzyaloshinskii-Moriya Interaction in Antiferromagnetic/Heavy-MetalBilayers, Phys. Rev. Lett. 120, 197202 (2018).

18. Camilo Ulloa, R. A. Duine, Magnon spin-Hall magnetoresistance of a gapped quantumparamagnet, Phys. Rev. Lett. 120, 177202 (2018).

19. R. A. Duine, Kyung-Jin Lee, Stuart S. P. Parkin, M. D. Stiles, Synthetic AntiferromagneticSpintronics, Nature Physics 14, 217 (2018); part of a collection of papers on antiferromag-netic spintronics.

20. L.J. Cornelissen, J. Liu, B.J. van Wees and R.A. Duine, Spin-Current-Controlled Modu-lation of the Magnon Spin Conductance in a 3-Terminal Magnon Transistor, Phys. Rev.Lett. 120, 097702 (2018); highlighted in Physics 11, 23 (2018).

21. A. Ruckriegel, A. Brataas and R.A. Duine, Bulk and edge spin transport in topologicalmagnon insulators, Phys. Rev. B 97, 081106 (2018).

22. N. M. Gergs, S. A. Bender, R. A. Duine, D. Schuricht, Spin switching via quantum dotspin valves, Phys. Rev. Lett. 120, 017701 (2018).

23. Yuxiang Yin, Dong-Soo Han, Mark C. H. de Jong, Reinoud Lavrijsen, Rembert A. Duine,Henk J. M. Swagten, and Bert Koopmans, Thickness dependence of unidirectional spin-Hall magnetoresistance in metallic bilayers, Appl. Phys. Lett. 111, 232405 (2017).

24. J. Armaitis, J. Ruseckas, H. T. C. Stoof, R. A. Duine, Spin Hall mode in a trapped thermalRashba gas, Phys. Rev. A 96, 053625 (2017).

25. Jiansen Zheng, Scott Bender, Jogundas Armaitis, Roberto E. Troncoso, R.A. Duine,Green’s function formalism for spin transport in metal-insulator-metal heterostructures,Phys. Rev. B 96, 174422 (2017).

26. Scott Bender, Hans Skarsvag, Arne Brataas, Rembert A. Duine, Enhanced Spin Conduc-tance of a Thin-Film Insulating Antiferromagnet, Phys. Rev. Lett. 119, 056804 (2017).

27. J. Armaitis and R. A. Duine, Superfluidity and spin superfluidity in spinor Bose gases,Phys. Rev. A 95, 053607 (2017).

28. Juriaan Lucassen, Fabian Kloodt-Twesten, Robert Frmter, Hans Peter Oepen, RembertA. Duine, Henk J.M. Swagten, Bert Koopmans, Reinoud Lavrijsen, Scanning electronmicroscopy with polarization analysis for multilayered chiral spin textures, Appl. Phys.Lett. 111, 132403 (2017).

29. Camilo Ulloa, Roberto E. Troncoso, Scott A. Bender, R. A. Duine, A. S. Nunez, Piezospin-tronic effect in honeycomb antiferromagnets, Phys. Rev. B 96, 104419 (2017).

30. Benedetta Flebus, Gerrit E. W. Bauer, Rembert A. Duine, and Yaroslav Tserkovnyak,Theory of the magnon-mediated tunnel magneto-Seebeck effect, Phys. Rev. B 96, 094429(2017).

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31. Benedetta Flebus, Ka Shen, Takashi Kikkawa, Ken-ichi Uchida, Zhiyong Qiu, Eiji Saitoh,Rembert A. Duine, Gerrit E. W. Bauer, Magnon-polaron transport in magnetic insulators,Phys. Rev. B 95, 144420 (2017).

32. A. Roldán-Molina, A.S. Nunez, R.A. Duine, Magnonic black holes, Phys. Rev. Lett. 118,061301 (2017).

33. Benedetta Flebus, Pramey Upadhyaya, Rembert A. Duine, Yaroslav Tserkovnyak, Localthermomagnonic torques in two-fluid spin dynamics, Phys. Rev. B 94, 214428 (2016).

34. Juan Shan, Ludo J. Cornelissen, Nynke Vlietstra, Jamal Ben Youssef, Timo Kuschel,Rembert A. Duine, and Bart J. van Wees, Influence of yttrium iron garnet thickness andheater opacity on the nonlocal transport of electrically and thermally excited magnons,Phys. Rev. B 94, 174437 (2016).

35. Takashi Kikkawa, Ka Shen, Benedetta Flebus, Rembert A. Duine, Ken-ichi Uchida, Zhiy-ong Qiu, Gerrit E. W. Bauer, and Eiji Saitoh, Magnon-Polarons in the Spin Seebeck Effect,Phys. Rev. Lett. 117, 207203 (2016).

36. Rick Keesman, Jules Lamers, R. A. Duine, and G. T. Barkema, Finite-size scaling atinfinite-order phase transitions, J Stat Mech: Theor Exp, vol 2016 (2016), pp 093201.

37. Benedetta Flebus, Rembert A. Duine, and Yaroslav Tserkovnyak, Landau-Lifshitz theoryof the magnon-drag thermopower, EPL 115 57004 (2016).

38. Sarah J. Watzman, Rembert A. Duine, Yaroslav Tserkovnyak, Hyungyu Jin, Arati Prakash,Yuanhua Zheng, and Joseph P. Heremans, Magnon-drag thermopower and Nernst coeffi-cient in Fe, Co and Ni, Phys. Rev. B 94, 144407 (2016).

39. H. Velkov, O. Gomonay, M. Beens, G. Schwiete, A. Brataas, J. Sinova and R. A. Duine,Phenomenology of current-induced skyrmion motion in antiferromagnets, New J. Physics18, 075016 (2016).

40. Ludo J. Cornelissen, Kevin J.H. Peters,Gerrit E.W. Bauer, Rembert A. Duine, and Bart J.van Wees, Magnon spin transport driven by the magnon chemical potential in a magneticinsulator, Phys. Rev. B 94, 014412 (2016).

41. Rick Keesman, Mark Raaijmakers, A. E. Baerends, G. T. Barkema, and R. A. Duine,Skyrmions in square-lattice antiferromagnets, Phys. Rev. B 94, 054402 (2016).

42. A.-W. de Leeuw, E. C. I. van der Wurff, R. A. Duine, D. van Oosten, and H. T. C.Stoof, Theory for Bose-Einstein condensation of light in nanofabricated semiconductormicrocavities, Phys. Rev. A 94, 013615 (2016).

43. Yaroslav Tserkovnyak, Scott A. Bender, Rembert A. Duine, and Benedetta Flebus, Bose-Einstein Condensation of Magnons Pumped by the Bulk Spin Seebeck Effect, Phys. Rev.B 93, 100402 (2016).

44. B. Flebus, S. A. Bender, Y. Tserkovnyak, and R. A. Duine, Two-Fluid Theory for SpinSuperfluidity in Magnetic Insulators, Phys. Rev. Lett. 116, 117201 (2016).

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45. Rick Keesman, A.O. Leonov, Stefan Buhrandt, G. T. Barkema, Lars Fritz, R.A. Duine,Degeneracies and fluctuations of Nèel skyrmions in confined geometries, Phys. Rev. B 92,134405 (2015).

46. S.B. Koller, A. Groot, P.C. Bons, R.A. Duine, H.T.C. Stoof, and P. van der Straten, SpinDrag in a Bose Gas, New. J. Phys. 17, 113026 (2015).

47. L.J. Cornelissen, J. Liu, R.A. Duine, J. Ben Youssef, B.J. Van Wees, Long distance trans-port of magnon spin information in a magnetic insulator at room temperature, NaturePhysics 11, 1022 (2015).

48. A. Manchon, H.C. Koo, J. Nitta, S.M. Frolov, R.A. Duine, New Perspectives for RashbaSpin-Orbit Coupling, Nature Materials 14, 871 (2015).

49. Reinoud Lavrijsen, Dion Hartmann, Arno van den Brink, Yuxiang Yin, Beatriz Barcones,Rembert Duine, Marcel Verheijen, Henk Swagten, Bert Koopmans, Asymmetric magneticbubble expansion under in-plane field in Pt/Co/Pt: effect of interface engineering, Phys.Rev. B 91, 104414 (2015).

50. A. Qaiumzadeh, R.A. Duine, M. Titov, Spin-Orbit Torques in Two-Dimensional RashbaFerromagnets, Phys. Rev. B 92, 014402 (2015).

51. J. Gayles, F. Freimuth, T. Schena, G. Lani, P. Mavropoulos, R. Duine, S. Blgel, J. Sinova,Y. Mokrousov, Dzyaloshinskii-Moriya interaction and Hall effects in the skyrmion phaseof MnFeGe alloys, Phys. Rev. Lett. 115, 036602 (2015).

52. J. Armaitis, H.T.C. Stoof, R.A. Duine, Hydrodynamic modes of partially condensed Bosemixtures, Phys. Rev. A 91, 043641 (2015).

53. A.-W. de Leeuw, O. Onishchenko, R.A. Duine, and H.T.C. Stoof, Effects of dissipation onthe superfluid-Mott-insulator transition of photons, Phys. Rev. A 91, 033609 (2015).

54. Clement H. Wong, H.T.C. Stoof, and R.A. Duine, Spin-temperature relaxation and thermo-spin diffusion in atomic Bose and Fermi gases, Phys. Rev. A 91, 043602 (2015).

55. A.-W. de Leeuw, E.C.I. van der Wurff, R.A. Duine, and H.T.C. Stoof, Phase diffusion ina Bose-Einstein condensate of light, Phys. Rev. A 90, 043627 (2014).

56. E.C.I. van der Wurff, A.-W. de Leeuw, R.A. Duine, and H.T.C. Stoof, Interaction Effectson Number Fluctuations in a Bose-Einstein Condensate of Light, Phys. Rev. Lett. 113,135301 (2014).

57. Scott A. Bender, Rembert A. Duine, Arne Brataas, and Yaroslav Tserkovnyak, Dynamicphase diagram of dc-pumped magnon condensates, Phys. Rev. B 90, 094409 (2014).

58. A.-W. de Leeuw, H.T.C. Stoof, and R.A. Duine, Phase fluctuations and first-order cor-relation functions of dissipative Bose-Einstein condensates, Phys. Rev. A 89, 053627(2014).

59. M.E. Knoester, Jairo Sinova, and R.A. Duine, Phenomenology of current-skyrmion inter-actions in thin films with perpendicular magnetic anisotropy, Phys. Rev. B 89, 064425(2014).

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60. A. Bezett, H.J. van Driel, M.P. Mink, H.T.C. Stoof, and R.A. Duine,Interaction effects ondynamic correlations in non-condensed Bose gases, Phys. Rev. A 89, 023632 (2014).

61. A.-W. de Leeuw, H.T.C. Stoof, and R.A. Duine, Schwinger-Keldysh theory for Bose-Einstein condensation of photons in a dye-filled optical microcavity, Phys. Rev. A 88,033829 (2013).

62. M. P. Mink, H. T. C. Stoof, R.A. Duine, Marco Polini, and G. Vignale, Unified Boltzmann-transport theory for the drag resistivity close to a second-order phase transition, Phys. Rev.B 88, 235311 (2013).

63. E. van der Bijl, R. E. Troncoso, and R. A. Duine, Domain-wall-controlled transverse spininjection, Phys. Rev. B 88, 064417 (2013).

64. C. H. Wong and R.A. Duine, Quasiparticle Berry curvature and Chern numbers in spin-orbit-coupled bosonic Mott insulators, Phys. Rev. A 88, 053631 (2013).

65. C. H. Wong and R. A. Duine, Topological Transport in Spin-Orbit Coupled Bosonic MottInsulators, Phys. Rev. Lett. 110, 115301 (2013).

66. J. Armaitis, R.A. Duine, and H.T.C. Stoof, Quantum rotor model for a Bose-Einsteincondensate of dipolar molecules , Phys. Rev. Lett. 111, 215301 (2013).

67. J. Armaitis, H.T.C. Stoof, and R.A. Duine, Magnetization relaxation and geometric forcesin a Bose ferromagnet, Phys. Rev. Lett. 110, 260404 (2013).

68. M. P. Mink, V. P. J. Jacobs, Marco Polini, G. Vignale, H. T. C. Stoof, R. A. Duine, Spintransport in a unitary Fermi gas close to the BCS transition, Phys. Rev. A 86, 063631(2012).

69. E. van der Bijl and R. A. Duine, Current-induced torques in textured Rashba ferromagnets,Phys. Rev. B 86, 094406 (2012).

70. C. H. Wong, H.T.C. Stoof, and R.A. Duine, Spin-Seebeck effect in a strongly interactingFermi gas, Phys. Rev. A 85, 063613 (2012).

71. Scott A. Bender, R. A. Duine, and Yaroslav Tserkovnyak, Electronic Pumping of Quasiequi-librium Bose-Einstein Condensed Magnons, Phys. Rev. Lett. 108, 246601 (2012).

72. R. Kittinaradorn, R.A. Duine, and H.T.C. Stoof, Critical spin transport in Bose gases,New J. Phys. 14, 055007 (2012), Focus Issue on “Bose-Einstein Condensation Phenomenain Atomic and Solid State Physics”.

73. M. P. Mink, H. T. C. Stoof, R.A. Duine, Marco Polini, and G. Vignale, Probing thetopological exciton condensate via Coulomb drag, Phys. Rev. Lett. 108, 186402 (2012).

74. J.E. Baarsma, J. Armaitis, R.A. Duine, and H.T.C. Stoof, Polarons in Extremely PolarizedFermi Gases: The Strongly Interacting 6Li-40K Mixture, Phys. Rev. A 85, 033631 (2012).

75. C. H. Wong, H.J.van Driel, R. Kittinaradorn, H.T.C. Stoof, and R.A. Duine, Spin Caloritron-ics in Noncondensed Bose Gases, Phys. Rev. Lett. 108, 075301 (2012).

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76. A.C. Swaving and R.A. Duine, Influence of a transport current on a domain wall in anantiferromagnetic metal, J. Phys.: Condens. Matter 24, 024223 (2012), part of the Specialissue on domain wall dynamics in nanostructures, edited by C.H. Marrows and G. Meier.

77. M.E. Lucassen, C.H. Wong, R.A. Duine, and Y. Tserkovnyak, Spin-transfer mechanismfor magnon-drag thermopower, Appl. Phys. Lett. 99, 262506 (2011).

78. E. van der Bijl, and R.A. Duine, Anomalous Hall conductivity from the dipole mode ofspin-orbit-coupled cold-atom systems, Phys. Rev. Lett. 107, 195302 (2011).

79. M. P. Mink, A. H. MacDonald, H. T. C. Stoof, and R. A. Duine, The Influence of RemoteBands on Exciton Condensation in Double-Layer Graphene, Phys. Rev. B 84, 155409(2011).

80. Dagim Tilahun, R. A. Duine, and A. H. MacDonald, A Quantum Theory of Cold BosonicAtoms in Optical Lattices, Phys. Rev. A 84, 033622 (2011).

81. Karin Everschor, Markus Garst, R. A. Duine, and Achim Rosch, Current induced rotationaltorques in the skyrmion lattice phase of chiral magnets, Phys. Rev. B 84, 064401 (2011).

82. M. E. Lucassen, G. C. F. L. Kruis, R. Lavrijsen, H. J. M. Swagten, B. Koopmans, and R.A. Duine, Spin motive forces due to magnetic vortices and domain walls, Phys. Rev. B84, 014414 (2011).

83. R.A. Duine, Marco Polini, Arnaud Raoux, H.T.C. Stoof, and G. Vignale, Spin Drag inUltracold Fermi Mixtures with Repulsive Interactions, New J. Phys. 13, 045010 (2011).

84. A.C. Swaving and R.A. Duine, Current-induced torques in continuous antiferromagnetictextures, Phys. Rev. B 83, 054428 (2011).

85. F. Jonietz, S. Mühlbauer, C. Pfleiderer, A. Neubauer, W. Münzer, A. Bauer, T. Adams,R. Georgii, P. Böni, R. A. Duine, K. Everschor, M. Garst, and A. Rosch, Spin TransferTorques in MnSi at Ultra-low Current Densities, Science 330, 1648 (2010).

86. H.J. van Driel, R.A. Duine, and H.T.C. Stoof, Spin drag Hall effect in a rotating Bosemixture, Phys. Rev. Lett. 105, 155301 (2010).This paper was labelled an Editor’s Suggestion.

87. M. Eltschka, M. Wötzel, J. Rhensius, S. Krzyk, U. Nowak, M. Kläui, T. Kasama, R. E.Dunin-Borkowski, L. J. Heyderman, H. J. van Driel, and R. A. Duine, Non-adiabatic spintorque investigated using thermally activated magnetic domain wall dynamics, Phys. Rev.Lett. 105, 056601 (2010).

88. R.A. Duine, Marco Polini, H.T.C. Stoof, and G. Vignale, Spin drag in an ultracold Fermigas on the verge of a ferromagnetic instability, Phys. Rev. Lett. 104 , 220403 (2010).

89. M.E. Lucassen and R.A. Duine, Spin motive forces and current fluctuations due to Brow-nian motion of domain walls, Solid State Commun. 150, 538 (2010), Appeared in SpecialIssue: Spin Caloritronics, edited by G.E.W. Bauer, A.H. MacDonald, and S. Maekawa.

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90. C.-C. Joseph Wang, R. A. Duine, and A. H. MacDonald, Quantum vortex dynamics intwo-dimensional neutral superfluids, Phys. Rev. A 81, 013609 (2010).

91. M.E. Lucassen and R.A. Duine, Fluctuations of current-driven domain walls in the non-adiabatic regime, Phys. Rev. B 80, 144421 (2009).

92. R.A. Duine and H.T.C. Stoof, Spin drag in noncondensed Bose gases, Phys. Rev. Lett.103, 170401 (2009). This paper is labelled as Editor’s Suggestion and selected for aViewpoint Commentary in Physics: see M. Polini and G. Vignale, Physics 2, 87 (2009).

93. Arnaud Koetsier, P. Massignan, R. A. Duine and H. T. C. Stoof, A strongly interactingBose gas: Nozières and Schmitt-Rink theory and beyond, Phys. Rev. A 79, 063609 (2009).

94. M.E. Lucassen, H.J. van Driel, C. Morais Smith, and R.A. Duine, Current-driven andfield-driven domain walls at nonzero temperature, Phys. Rev. B 79, 224411 (2009).

95. Dimitrie Culcer, M. E. Lucassen, R. A. Duine, and R. Winkler, Current-induced spintorques in III-V ferromagnetic semiconductors, Phys. Rev. B 79, 155208 (2009).

96. D. Herranz, R. Guerrero, R. Villar, F.G. Aliev, A.C. Swaving, R.A. Duine, C. van Hae-sendonck, and I.Vavra, Anomalous low-frequency noise in synthetic antiferromagnets: Pos-sible evidence of current-induced domain-wall motion, Phys. Rev. B 79, 134423 (2009).

97. R.A. Duine, Effects of non-adiabaticity on the voltage generated by a moving domain wall,Phys. Rev. B 79, 014407 (2009).

98. M. P. Mink, C. Morais Smith, and R. A. Duine, Vortex-lattice pinning in two-componentBose-Einstein condensates, Phys. Rev. A 79, 013605 (2009).

99. R.A. Duine and C. Morais Smith, Creep of current-driven domain-wall lines: effects ofintrinsic versus extrinsic pinning, Phys. Rev. B 77, 094434 (2008).

100. P. M. Haney, R. A. Duine, A. S. Núñez, and A. H. MacDonald, Current-Induced Torquesin Magnetic Metals: Beyond Spin Transfer, J. Magn. Magn. Mater. 320, 1300 (2008).

101. Arnaud Koetsier, R. A. Duine, Immanuel Bloch, and H. T. C. Stoof, Achieving the Neelstate in an optical lattice, Phys. Rev. A 77, 023623 (2008).

102. A.S. Núñez and R.A. Duine, Effective temperature and Gilbert damping of a current-drivenlocalized spin, Phys. Rev. B 77, 054401 (2008).

103. R.A. Duine, Spin pumping by a field-driven domain wall, Phys. Rev. B 77, 014409 (2008).

104. P.M. Haney, D. Waldron, R.A. Duine, A.S. Núñez, H. Guo, and A.H. MacDonald, Cur-rent Induced Order Parameter Dynamics: Microscopic Theory Applied to Co/Cu/Co spinvalves, Phys. Rev. B 76, 024404 (2007).

105. R.A. Duine, A.S. Núñez, Jairo Sinova, and A.H. MacDonald, Functional Keldysh Theoryof Spin Torques, Phys. Rev. B 75, 214420 (2007).

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106. P.M. Haney, D. Waldron, R.A. Duine, A.S. Núñez, H. Guo, and A.H. MacDonald, Ab-initioGMR and current-induced torques in Cr/Au/Cr multilayers, Phys. Rev. B 75, 174428(2007).

107. Z. Wei, A. Sharma, A. S. Núñez, P. M. Haney, R. A. Duine, J. Bass, A. H. MacDonald,and M. Tsoi, Changing Exchange Bias in Spin Valves with an Electric Current, Phys. Rev.Lett. 98, 116603 (2007).

108. R. A. Duine, A. S. Núñez, and A. H. MacDonald, Thermally-Assisted Current-DrivenDomain Wall Motion, Phys. Rev. Lett. 98, 056605 (2007).

109. R.A. Duine, P.M. Haney, A.S. Núñez, and A.H. MacDonald, Inelastic scattering in ferro-magnetic and antiferromagnetic metal spin valves, Phys. Rev. B 75, 014433 (2007).

110. Y.-P. Shim, R.A. Duine and A.H. MacDonald, Fulde-Ferrell-Larkin-Ovchinnikov vortexlattice states in fermionic cold-atom systems, Phys. Rev. A 74, 053602 (2006).

111. A.S. Núñez, R.A. Duine, P.M. Haney, and A.H. MacDonald, Theory of spin torques andgiant magnetoresistance in antiferromagnetic metals, Phys. Rev. B 73, 214426 (2006).

112. R.A. Duine and A.H. MacDonald, Itinerant Ferromagnetism in an Ultracold Atom FermiGas, Phys. Rev. Lett. 95, 230403 (2005).

113. J.W. Reijnders and R.A. Duine, Pinning and collective modes of a vortex lattice in aBose-Einstein condensate , Phys. Rev. A 71, 063607 (2005).

114. R.A. Duine and A.H. MacDonald, Quantitative Probe of Pairing Correlations in a ColdFermionic Atom Gas, Phys. Rev. A 71, 053613 (2005).

115. J.W. Reijnders and R.A. Duine, Pinning of vortices in a Bose-Einstein condensate by anoptical lattice, Phys. Rev. Lett. 93, 060401 (2004).

116. M.W.J. Romans, R.A. Duine, Subir Sachdev, and H.T.C. Stoof, Quantum phase transitionin an atomic Bose gas with a Feshbach resonance, Phys. Rev. Lett. 93, 020405 (2004).

117. R.A. Duine, B.W.A. Leurs and H.T.C. Stoof, Noisy Dynamics of a Vortex in a PartiallyBose-Einstein Condensed Gas, Phys. Rev. A 69, 053623 (2004).

118. R.A. Duine and H.T.C. Stoof, Atom-molecule coherence in Bose gases, Phys. Rep. 396,115-195 (2004).

119. G.M. Falco, R.A. Duine and H.T.C. Stoof, Molecular Kondo resonance in atomic Fermigases, Phys. Rev. Lett. 92, 140402 (2004).

120. R.A. Duine and H.T.C. Stoof, Many-body aspects of coherent atom-molecule oscillations,Phys. Rev. Lett. 91, 150405 (2003).

121. R.A. Duine and H.T.C. Stoof, Dynamics of a Bose-Einstein Condensate near a FeshbachResonance, Phys. Rev. A 68, 0130602 (2003).

122. R.A. Duine and H.T.C. Stoof, The Josephson frequency of resonantly coupled atomic andmolecular condensates, New. J. Phys. 5, 69 (2003).

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123. R.A. Duine and H.T.C. Stoof, Microscopic many-body theory of atomic Bose gases near aFeshbach resonance, J. Opt. B: Quantum Semiclass. Opt. 5, S212-S218 (2003).

124. R.A. Duine and H.T.C. Stoof, Stochastic Dynamics of a Trapped Bose-Einstein Conden-sate, Phys. Rev. A 65, 013603 (2002).

125. R.A. Duine and H.T.C. Stoof, Explosion of a Collapsing Bose-Einstein Condensate, Phys.Rev. Lett. 86, 2204 (2001).

• other publications

1. R.A. Duine, Zwarte gaten op een chip, NTvN 83, 4 (2017).

2. R.A. Duine, Arne Brataas, Scott A. Bender, Yaroslav Tserkovnyak, Spintronics and MagnonBose-Einstein Condensation, Book Chapter in Universal Themes of Bose-Einstein Con-densation, N. Proukakis et al., Eds., Cambridge University Press, Cambrigde (2017).

3. L.J. Cornelissen, J. Liu, R.A. Duine, J. Ben Youssef, B.J. Van Wees, Exchange magnonspintronics in the magnetic insulator yttrium iron garnet (Conference Presentation), Proc.SPIE 9931, Spintronics IX, 993133 (2016).

4. Rembert Duine, Spintronics: skyrmions singled out, Nature Nanotechnology 8, 800 (2013).

5. Rembert Duine, Spintronics: an alternating alternative, Nature Materials 10, 344 (2011).

6. Rembert Duine, Hedwig van Driel en Henk Stoof, Koude atomen bieden weerstand, NTvN76, 292 (2010).

7. R.A. Duine, Fysica 2010 focussessie Nanofysica, NTvN 76, 114 (2010).

8. R.A. Duine, Generation of electric current by a moving domain wall, Proc. of SPIE 7398,7398-26 (2009).

9. R.A. Duine, Spinning fermions, Physics 1, 27 (2008).

10. H.T.C. Stoof en R.A. Duine, Atoom-molecuul-oscillaties in Bose-Einstein-gecondenseerdegassen, NTvN 69, 286 (2003) (In Dutch).

11. R.A. Duine, Atom-molecule coherence in Bose gases, Ph. D. Thesis, Utrecht University(2003).

• list of talks/posters1

1. Non-local magnon spin transport, talk given at the HFML - FELIX User Meeting 2019,Nijmegen, July 10, 2019 (I).

2. Spin currents and black holes, colloquium given at the Technical University of Kaiser-slautern, July 1, 2019.

1(I) indicates invited talks at conferences.

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3. Non-local magnon spin transport, talk given at Spin Caloritronics X, Groningen, March20, 2019.

4. Non-local spin transport as a probe of viscous magnon fluids, talk given at Spin Mechanics6, Zao, Japan, February 28, 2019 (I).

5. Event horizons for spin waves (and what we can do with them), talk given at the Kavli In-stitute for Theoretical Sciences during the Workshop “Collective Spin Dynamics in Nanos-tructures”, Beijing, China, October 15, 2018 (I).

6. Viscous Spintronics, talk given at the UK-NL workshop, Oxford, UK, August 23, 2018 (I).

7. Event horizons and black-hole lasers for spin waves, talk given at Spin Summit 2018,Xingyi, China, August 17, 2018 (I).

8. Spin currents: from domain walls to black holes, colloquium at Bielefeld University, Biele-feld, Germany, July 17, 2018.

9. Magnon-electron and magnon-phonon interactions, talk given at the Spin Caloritronics 9Conference, Columbus, Ohio, USA, June 26, 2018 (I).

10. Black holes on a chip, talk given at the Department’s Day of Physics, Utrecht University,22 March 2018.

11. Spin currents: from domain walls to black holes, colloquium given at the Belgium QuantumPhysics Initiative, Brussels, February 15, 2018.

12. Spin-vorticity coupling in viscous electron fluids, talk given at Spin Mechanics 5, LesHouches, France, 12 February 2018 (I).

13. Skyrmions in antiferromagnets, talk given at the focus session on magnetic skyrmions inPhysics at Veldhoven 2018, 24 January 2018 (I).

14. Magnetic insulator spintronics, colloquium given at the Joint Quantum Institute of NISTand the University of Maryland, Maryland, U.S.A., November 6, 2017.

15. Magnetic Insulator Spintronics, Condensed-matter Theory Seminar give at the Paul Scher-rer Institute, Villigen, Switzerland, September 26, 2017.

16. Spin transport between normal metals and quantum magnets, invited talk given at theQuantum Spintronics at Interfaces conference, San Sebastian, Spain, September 8, 2017(I).

17. Spin currents, magnons, fluid dynamics, and a bit of gravity, invited talk given at theMagnonics Conference in Oxford, UK, August 9, 2017 (I).

18. Enhanced Spin Conductance through a thin-film insulating antiferromagnet, invited talkgiven at the conference Spin Caloritronics 8, Regensburg, June 13, 2017 (I).

19. Lectures on Spintronics and Magnon Bose-Einstein Condensation, International Schoolon Magnetism in Real and Synthetic Materials Tutzing, Germany, March 27-30, 2017.

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20. Spin currents: from domain walls to black holes, Lunchlezing voor de Vereniging voorTechnische Physica, Delft, March 21, 2017.

21. Spin currents: from domain walls to black holes, Physics Colloquium given at Universityof Jyväskylä, Finland, March 17, 2017.

22. Zwarte gaten op een chip, Natuurkundig Gezelschap te Utrecht, March 7 2017.

23. New Horizons for Spintroncs, talk given at the conference Spin Superfluidity in FrenchPolynesia, Mo’orea, February 13, 2017 (I).

24. Spin currents: from domain walls to black holes, the Nico van Kampen colloquium inTheoretical Physics, Utrecht, December 21, 2016.

25. Magnonic black holes, talk given at nanoQT-2016, Kiev, October 11, 2016 (I).

26. Spin currents through antiferromagnets, talk given at the Antiferromagnetic SpintronicsWorkshop at the SPICE Center, Mainz, Germany, September 28, 2016 (I).

27. Two-fluid theory for the spin Seebeck effect in magnetic insulators, talk given at Insula-tronics 2016, Longyearbyen, Spitsbergen, May 28, 2016 (I).

28. Superfluidity and spin superfluidity, talk given at the 616th WE-Heraeus seminar on “Ul-tracold Quantum Gases - Current Trends and Future Perspectives”, Bad Honnef, Germany,May 10, 2016 (I).

29. Skyrmions in ferromagnets and antiferromagnets, talk given at the workshop Los AndesSpintronicos, Santiago, Chile, March 14, 2016 (I).

30. Spin transport through magnetic insulators, condensed-matter seminar given at the Uni-versity of Amster (UvA), Amsterdam, February 2, 2016.

31. Theory of spintronics: Interactions between spin-polarized current and dynamic magnetictextures, lectures given at the School on Spintronics, Teheran, Iran, November 4-6, 2015(I).

32. Quasi-particle Berry curvature in spin-orbit coupled bosonic Mott insulators, talk givenat the workshop Mathematical Approach to Topological Phases in Spintronics, Sendai,Japan, October 8, 2015.

33. Degeneracies and quantum fluctuations of skyrmionic magnetic matter, talk given at theGRC Conference on Spn Dynamics in Nanostructures, Hong Kong, July 28, 2015 (I).

34. Spin transport and magnon-phonon interactions in magnetic insulators, talk given at SpinMechanics 3, Munich, Germany, June 25, 2015 (I).

35. Néèl skyrmions in confined geometries and at nonzero temperatures, theory seminr givenat NTNU Trondheim, Norway, May 22, 2015.

36. Spin currents: from cold-atom systems to magnetic insulators, condensed-matter theoryseminar given at Frankfurt University, Germany, April 24, 2015.

23

37. Theory of spintronics: interactions between spin-polarized current and magnetic textures,two invited lectures given at the IGER International Symposium on Science of MolecularAssembly and Biomolecular Systems 2015 : Spins in Action, Nagoya, Japan, March 26and 27, 2015 (I).

38. Spintronics and Magnon Bose-Einstein condensation, condensed-matter theory seminargiven at Radboud University Nijmegen, The Netherlands, January 29, 2015.

39. Interactions near interfaces: from skyrmion stabilization to magnon condensation, theoryseminar given at Konstanz University, Germany, October 27, 2014.

40. Spin currents: from cold atoms to magnetic insulators, Joint Colloquium given at Univer-sité de Liège, Belgium, October 22, 2014.

41. Interactions near interfaces: from skyrmion stabilization to magnon condensation, condensed-matter seminar given at Groningen University, The Netherlands, September 29, 2014.

42. Current-induced torques in antiferromagnets, talk given at the symposium on Antiferro-magnetic Spintronics at the 2014 Fall meeting of the European Materials Research Society,Warschau, Poland, September 18, 2014 (I).

43. Magnon Bose-Einstein condensation via spin-current injection, talk given at “Spin Caloritron-ics VI”, Irsee, Germany, July 17, 2014 (I).

44. Magnon Bose-Einstein condensation, seminar at Newcastle University, Newcastle, May 9,2014.

45. Magnon Bose-Einstein condensation via spin-current injection, talk given at the 2nd In-ternational Symposium on ”Novel states in correlated condensed matter - from modelsystems to real materials”, Konigstein, Germany, April 9, 2014 (I).

46. Creep of chiral domain walls, talk given at the Mainz-Lanna theory meeting, Mainz, Ger-many, March 24, 2014.

47. Creep of chiral domain walls, talk given at minisymposium at Technical University Eind-hoven, Eindhoven, 20 March, 2014.

48. Geometric transport in spinor quantum gases, talk given at the Banff Cold Atoms Meeting,Banff, Canada, 19 February, 2014 (I).

49. Magnon Bose-Einstein condensation via spin-current injection, talk given during the 550.WE-Heraeus-Seminar on Spin Transport Beyond Boltzmann, Bad Honnef, Germany, Jan-uary 9, 2014 (I).

50. Magnetic skyrmions, talk given during the KITP workshop on Progress in Spintronics,Santa Barbara, California, U.S.A., November 7, 2013 (I).

51. Currents along interfaces in textured magnetic heterostructures, talk given at the GordonResearch Conference on Spin Dynamics in Nanostructures, Hong Kong, August 20, 2013(I).

24

52. Magnon Bose-Einstein condensation via spin-current injection, Theoretical Physics collo-quium at Utrecht University, Utrecht, June 19, 2013.

53. Tangential spin, charge, and heat currents, talk given at the workshop Spin CaloritronicsV, Columbus, Ohio, U.S.A., May 14, 2013 (I).

54. Spintronics with cold atoms, seminar given at SNS Pisa, Pisa, Italy, April 23, 2013.

55. Theory of spintronics: Interactions between spin-polarized current and dynamic magnetictextures, lecture at the NewSpin3 Spring School, Mainz, Germany, April 5, 2013.

56. Magnetic-texture-controlled transverse spin injection, talk given at the APS March Meet-ing, Baltimore, U.S.A., March 22, 2013.

57. Topological transport in spin-orbit coupled bosonic Mott insulators, talk given at the APSMarch Meeting, Baltimore, U.S.A., March 19, 2013.

58. Magnon Bose-Einstein condensation by spin-current injection, talk given at the workshopUniversal Themes of Bose-Einstein Condensation, Leiden, March 13, 2013 (I).

59. Spin currents and magnetization dynamics in a Bose gas, seminar given at The Universityof Texas at Austin, Austin, TX, U.S.A., November 8, 2012.

60. Novel mechanisms and new materials for current-driven domain-wall motion, seminargiven at NIST, Gaithersburg, MD, U.S.A., November 5, 2012.

61. De kwantummechanica: niet-alledaagse natuurkunde in het dagelijks leven (en daarbuiten),lecture given at the “Masterclass Einstein”, Utrecht, October 19, 2012.

62. Current-induced torques and domain-wall motion in layered magnetic materials, condensedmatter seminar at Leeds University, Leeds, UK, October 10, 2012.

63. Novel mechanisms and new materials for current-driven domain-wall motion, talk givenat the International Materials Research Congress, Cancun, Mexico, August 16, 2012 (I).

64. Spin transfer mechanism for magnon-drag thermopower, talk given at Spin CaloritronicsIV, Sendai, Japan, June 3, 2012 (I).

65. Symmetries, current-induced torques, and domain walls, talk given at the InternationalSymposium on the Dynamics of Domain Walls 2012, Hamburg, Germany, May 31, 2012(I).

66. Spin currents and spin drag in a Bose gas, Condensed Matter Theory Seminar at CologneUniversity, April 20, 2012.

67. Spintronics with magnons and other bosons, talk at DuNo Spin 2012 (Dutch-Norwegianworkshop on spin), January 31, 2012 (I).

68. Spintronics with cold atoms, Winter School lecture given at the “NewSpin2: Spin physicsand topological effects in cold atoms, condensed matter, and beyond” conference, CollegeStation, TX, USA, December 12, 2011.

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69. Current-driven domain walls at nonzero temperature, magnetism seminar given at LPS,Paris, France, October 6, 2011.

70. Spin Currents and Spin Drag in Atomic Bose Gases, colloquium at the University of Chile,Santiago, Chile, September 2, 2011.

71. Current-driven domain-wall motion, FOM SPIN Programme meeting, Nijmegen, TheNetherlands, June 20, 2011.

72. Novel methods and new materials for current-induced magnetization dynamics, SFB Col-loquium, Hamburg, Germany, May 31, 2011.

73. Spin caloritronics with cold atom, talk given at the workshop Spin Caloritronics III at theLorentz Center, Leiden, The Netherlands, May 12, 2011 (I).

74. Theory of spin transport in semiconductors, ferromagnets, and cold-atom systems, APSMarch Meeting pre-meeting spintronics tutorial, Dallas, U.S.A., March 20, 2011 (I).

75. De magie van meerdere deeltjes (in Dutch), Utrecht University Museum, Utrecht, TheNetherlands, January 30, 2011.

76. Novel mechanisms and new materials for current-driven magnetization dynamics, AnotherSpin in the Wall Symposium, Eindhoven, The Netherlands, January 27, 2011 (I).

77. Non-universal aspects of electromotive forces induced by domain-wall motion, Cambridge-Leiden Easymeeting, Cambridge, UK, September 3, 2010 (I).

78. Non-universal aspects of electromotive forces induced by domain-wall motion, Trends inSpintronics, 2nd NWO-NRF Korean-Dutch workshop, Eindhoven, The Netherlands June24, 2010 (I).

79. Meer is Anders, Bèta onder de Dom, Utrecht, June 11, 2010.

80. Spin Drag in Bose and Fermi Gases, APS March Meeting, Portland, U.S.A., March 15,2010.

81. Spin Drag in Bose and Fermi Gases, Theoretical Physics Colloquium, University of Ams-terdam, March 4, 2010.

82. Van ’t Hooft-Polyakov-monopool naar Ipod, voordracht tijdens werkbezoek vaste tweedekamercommissie voor OCW aan de landelijke onderzoeksscholen, Utrecht, 12 Februari,2010.

83. Spin Drag, theory seminar at Groningen University, November 23, 2009.

84. Spin motive forces, seminar given at SNS Pisa, Pisa, Italy, October 8, 2009.

85. Generation of Electric Current by a Moving Domain Wall, talk given at the 16-th Interna-tional Summer School Nicolás Cabrera on Spin Transport and Dynamics in Nanostructures,Madrid, Spain, September 14-18 2009 (I).

26

86. Antiferromagnetic Metal Spintronics, lecture given at the 16-th International SummerSchool Nicolás Cabrera on Spin Transport and Dynamics in Nanostructures, Madrid,Spain, September 14-18 2009 (I).

87. Generation of Electric Current by a Moving Domain Wall, talk given at the SpintronicsII symposium at SPIE Optics and Photonics, San Diego, CA, August 4, 2009 (I).

88. Gauge Fields in Spintronics, talk given at “Trends in Theory 2009” 8th biennial symposiumof the Dutch Research School of Theoretical Physics, Dalfsen, May 14, 2009 (I).

89. A strongly interacting Bose gas: Nozières and Schmitt-Rink theory and beyond, talk givenat the Cambridge - Leiden: easyMeeting on Quantum Matter at the Lorentz Center,Leiden, May 7, 2009 (I).

90. Current-driven domain walls at nonzero temperature, talk given at the workshop “SpinCaloritronics” at the Lorentz Center, Leiden, February 12, 2009 (I).

91. Spintronics, talk given for “De Leidsche Fles”, Leiden, February 11, 2009.

92. Generation of Electric Current by a Moving Domain Wall, STCM Workshop, Kyoto,Japan, November 4, 2008 (I).

93. Berry’s phase, motive forces, and domain walls, Ehrenfest colloquium, Leiden, October15, 2008.

94. Spintronica: van lading naar spin, Natuurkundig Gezelschap, Utrecht, October 7, 2008.

95. Spintronics, General Physics Colloquium about ERC starting grant together with AndreMischke, Utrecht, October 3, 2008.

96. Generation of Electric Current by a Moving Domain Wall, Konstanz, Germany, July 18,2008.

97. Generation of Electric Current by a Moving Domain Wall, SFB 668 seminar, Hamburg,Germany, July 4, 2008.

98. Magnetism and Quantum Phase Transitions in Cold-Atom Systems, invited talk at theCIFAR Quantum Materials Program Meeting, Toronto, Canada, May 8, 2008 (I).

99. Current-induced torques in magnetic textures and in antiferromagnets, invited talk givenat the APS March Meeting, New Orleans, LA, March 10, 2008 (I).

100. Spin transfer and spin pumping, Munich Physics Colloquium, Munich, January 14th, 2008.

101. The 2007 Nobel prize in Physics, General Physics Colloquium (together with Pedro Zeijl-mans van Emmichoven), Utrecht, December 14th, 2007.

102. Spin pumping by domain walls, talk given at the National Seminar Condensed MatterPhysics, Utrecht, December 7th, 2007.

103. Spin transfer and spin pumping, Ornstein Colloquium, Utrecht, November 8th, 2007.

27

104. Spin transfer and spin pumping, talk given at University of Freiburg, Freiburg, Germany,July 5th, 2007.

105. Current-driven domain-wall motion and spin pumping, invited talk given at the “SpinNor2007: spin and charge flow in nanostructures” conference, Centre for Advanced Study,Oslo, Norway, June 27th, 2007 (I).

106. Spin transfer: from spin valves to current-driven domain walls, theory colloquium givenat the University of Groningen, April 16th, 2007.

107. Spin transfer: from spin valves to current-driven domain walls, talk given at Physics ofNanostructures group at Eindhoven University of Technology, Eindhoven, April 3rd, 2007.

108. Thermally-Assisted Current-Driven Domain Wall Motion, talk given at the APS MarchMeeting, Denver, CO, March 6, 2007.

109. Theory of current-driven domain wall motion, talk given at physics@Veldhoven 2007, Veld-hoven, January 23rd, 2007.

110. Giant Magnetoresistance and Current-Induced Torques in Antiferromagnetic Metals, talkgiven at the group meeting of B. Van Wees, Universiteit Groningen, December 19th, 2006.

111. Theory of Current-Driven Domain Wall Motion, condensed-matter theory seminar givenat Köln University, Köln, Germany, November 3rd, 2006.

112. Spin transfer: from spin valves to current-driven domain walls, talk given at The Institutefor Theoretical Physics (ITFA) at the University of Amsterdam (UvA), Amsterdam, TheNetherlands, October 12th, 2006.

113. Giant Magnetoresistance and Spin Transfer Torques in Antiferromagnetic Metals, talkgiven at the International Workshop on Spin Transfer, Nancy, France, October 3rd, 2006.

114. Theory of Antiferromagnetic Metal Spintronics, talk at the APS March Meeting, Balti-more, MD, March 13th, 2006.

115. Antiferromagnetic Metal Spintronics, Theoretical Physics Seminar given at the Kavli In-stitute of Nanoscience, Delft University of Technology, Delft, The Netherlands, November24th, 2005.

116. (Anti)ferromagnetic Metal Spintronics, Theoretical Physics Colloquium given at The In-stitute for Theoretical Physics, Utrecht University, Utrecht, The Netherlands, November23rd, 2005.

117. Antiferromagnetic Metal Spintronics, talk given at the COLLECT meeting at ColumbiaUniversity, New York City, NY, October 22nd, 2005.

118. Itinerant Ferromagnetism in Cold Fermi Gases, talk given at the Institute For TheoreticalPhysics of The University of Amsterdam (UVA), Amsterdam, The Netherlands, May 23rd,2005.

119. Itinerant Ferromagnetism in Cold Fermi Gases, talk at the APS March Meeting, LosAngeles, CA, March 22nd, 2005.

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120. Condensed matter physics with cold atom systems: Vortex Pinning, Superconductivity andFerromagnetism, condensed matter seminar given at The University of Texas at Austin,Austin, TX, February 1st, 2005.

121. Condensed matter physics with cold atom systems: Vortex Pinning, Superconductivityand Ferromagnetism, condensed matter seminar given at Rice University, Houston, TX,November 29th, 2004.

122. Dynamics and Pinning of Vortices in a Bose-Einstein Condensate, condensed matter sem-inar given at Texas A & M University, College Station, TX, September 1st, 2004.

123. Pinning of vortices in a Bose-Einstein condensate by an optical lattice, student talk givenat the Boulder Summer School for Condensed Matter and Materials Physics, Universityof Colorado at Boulder, July 27th, 2004.

124. S. Masmanidis, J. Honolka, M. Li, H. X. Tang, M. L. Roukes, R. A. Duine, A. H. MacDon-ald, R. K. Kawakami, and D. D. Awschalom, Carrier-Carrier Interactions and Weak Lo-calization in (Ga,Mn)As, poster presented by S. Masmanidis during The 3rd InternationalConference On Physics And Applications Of Spin-Related Phenomena In Semiconductors,Santa Barbara, CA, July 21-23, 2004

125. Many-body Physics with Atomic Gases near a Feshbach Resonance, talk given at the APSMarch Meeting 2004, Montreal, Canada, March 24th, 2004.

126. Many-body Theory of Feshbach Resonances in Ultracold Atomic gases, talk given at DanHeinzen’s group meeting at The University of Texas at Austin, Austin, TX, March 9th,2004.

127. Feshbach Resonances in Ultracold Atomic Gases, talk given at Jim Eisenstein’s Groupmeeting at the California Institute of Technology, Pasadena, CA, February 10th, 2004.

128. Many-body physics with atomic Bose gases near a Feshbach resonance, talk given at theWetenschappelijke FOM-dagen Gecondenseerde Materie, Veldhoven, The Netherlands, De-cember 17th, 2003 (I).

129. Noisy Dynamics of a Vortex in Bose-Einstein Condensates, Special ITP Seminar, Utrecht,The Netherlands, December 2nd, 2003.

130. Many-body physics with atomic gases near a Feshbach resonance, invited talk given at theSecond International Workshop on the Theory of Quantum Gases and Quantum Coher-ence, Levico (Trento), Italy, June 12th, 2003 (I).

131. The bosonic Kondo effect, talk given at the workshop on Correlation Effects in Bose Con-densates and Optical Lattices at the William I. Fine Theoretical Physics Institute, Min-neapolis, USA, May 2nd, 2003.

132. Atom-molecule coherence, talk given at the BEC groupmeeting at NORDITA, Copenhagen,Denmark, April 10th, 2003.

133. Theory of atom-molecule coherence in ultracold gases, invited talk given at the LandelijkSeminarium Statistische Mechanica, Leiden, The Netherlands, February 21st, 2003.

29

134. Atom-molecule coherence in Bose gases, talk given at the Wetenschappelijke Vergaderingvoor de FOM Werkgroep Statistische Fysica, Lunteren, The Netherlands, January 23d,2003.

135. Microscopic many-body theory of Feshbach resonances in a Bose gas, poster presentedat the 7th International Workshop on Atom Optics and Interferometry, Lunteren, TheNetherlands, September 28th - October 1st, 2002.

136. Stochastic Dynamics of a Trapped Bose-Einstein Condensate, talk given at the BEC Sum-mer Programme at the ECT*, Trento, Italy, July 30th, 2002.

137. Stochastic Dynamics of a Trapped Bose-Einstein Condensate, talk given at the Weten-schappelijke vergadering voor de FOM werkgemeenschap voor de gecondenseerde materie,Veldhoven, The Netherlands, December 19th, 2001.

138. Stochastic Dynamics of a Trapped Bose-Einstein Condensate, poster presented at the Eu-roconference on the Physics of Atomic Gases at Low Temperature in San Feliu de Guixols,Spain, September 11-15, 2001.

139. Explosion of a Collapsing Bose-Einstein Condensate, talk given at the WetenschappelijkeVergadering voor de FOM Werkgroep Statistische Fysica, Lunteren, The Netherlands,February 2nd, 2001.

140. Explosion of a Collapsing Bose-Einstein Condensate, talk given at the Institute for The-oretical Physics, Utrecht University, The Netherlands, January 26th, 2001.

141. Collapsing Condensates, talk given at the CECAM Workshop on Dynamics of AttractiveBEC’s, Lyon, France, May 30th, 2000.

• conferences/schools/workshops visited1. Spin Caloritronics X

2. HFML - FELIX User Meeting 2019

3. Spin Mechanics 6, 2019

4. Collective Spin Dynamics in Nanostructures at the KITS, Beijing, 2018

5. UK-NL workshop 2018

6. Spin Summit Conference, 2018

7. Spin Caloritronics IX, 2018

8. Spin Mechanics 5, Les Houches, France, February 12-16 (2018).

9. Quantum Spintronics at Interfaces, San Sebastian, Spain, September 4-8, 2017.

10. Magnonics 2017, Oxford, UK, August 7-10, 2017.

11. Spin Caloritronics 8, Regensburg, Germany, June 12-15, 2017.

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https://spincal2019.webhosting.rug.nl/https://www.ru.nl/hfml-felix/news-events/events/hfml-felix-user-meeting-2019/http://biz.knt.co.jp/tour/2019/02/spin_mechanics6/http://kits2018csdn.csp.escience.cn/dct/page/1http://spinsummit.fudan.edu.cn/http://cem.osu.edu/news/spin-cal-ix/

12. Spin Superfluidity in French Polynesia, Mo’orea, February 13-17, 2017.

13. NanoQT-2016, Kiev, Ukraine, October 8-14, 2016.

14. SPICE Workshop on Antiferromagnetic Spintronics, Mainz, Germany, September 26-30,2016.

15. Insulatronics 2016, Longyearbyen, Spitsbergen, May 27-31, 2016.

16. 616th WE-Heraeus seminar on “Ultracold Quantum Gases - Current Trends and FuturePerspectives”, Bad Honnef, Germany, May 9-13, 2016.

17. Workshop Los Andes Spintronicos, Santiago, Chile, March 14, 2016.

18. Conference Fysica 2016, Nijmegen, The Netherlands, February 8, 2016.

19. School on Spintronics, Teheran, Iran, November 4-6, 2015.

20. Workshop Mathematical Approach to Topological Phases in Spintronics, Sendai, Japan,October 8, 2015.

21. GRC Conference Spin Dynamics in Nanostructures, Hong Kong, July 26-31, 2015.

22. Spin Mechanics 3, Munich, June 22-26, 2015.

23. Symposium Trends in Theory 2015, Dalfsen, The Netherlands, May 28-29, 2015.

24. IGER International Symposium on Science of Molecular Assembly and Biomolecular Sys-tems 2015 : Spins in Action, Nagoya, Japan, March 26-27, 2015.

25. Visit to the KITP as a follow-on to the 2013 Spintronics workshop, Santa Barbara, USA,March 2-6, 2015.

26. 2014 Fall meeting of the European Materials Research Society, Warschau, Poland, Septem-ber 15-18, 2014.

27. Spin caloritronics VI, Irsee, Germany, July 14-18, 2014.

28. Second International Symposium on ”Novel states in correlated condensed matter - frommodel systems to real materials”, Konigstein, Germany, April 8-10, 2014.

29. Banff Cold Atoms Meeting, Banff, Canada, February 19-21, 2014.

30. 550. WE-Heraeus-Seminar on Spin Transport Beyond Boltzmann, Bad Honnef, Germany,January 8-10, 2014.

31. KITP program on Progress in Spintronics, Fall 2013.

32. Gordon Research Conference on Spin Dynamics in Nanostructures, Hong Kong, August18-23, 2013.

33. Spin caloritronics V, Columbus, Ohio, U.S.A., May 12-15, 2013.

34. Workshop on Universal Themes in Bose-Einstein Condensation, Leiden, March 11-15, 2013.

31

35. APS March Meeting, Baltimore, U.S.A., March 18-22, 2013.

36. Annual meeting of the Young Academy of Europe, Brussels, December 7-8, 2012.

37. IMRC, Cancun, Mexico, August 12-17, 2012.

38. 4th International Workshop on Spin Caloritronics, Sendai, Japan, June 2 - 5, 2012.

39. International Symposium on the Dynamics of Domain Walls 2012, Hamburg, Germany,May 30-June 1, 2012.

40. ICAB conferentie, Nijkerk, May 23, 2012.

41. DuNo Spin 2012 (Dutch-Norwegian workshop on spin), Oppdal, Norway, January 30-31,2012.

42. NewSpin2: Spin physics and topological effects in cold atoms, condensed matter, andbeyond, College Station (TX, USA), December 12-17, 2011.

43. Spin Caloritronics III, Lorentz Center, Leiden, May 9-13, 2011.

44. APS March Meeting, Dallas, USA, March 21-25, 2011.

45. Cambridge - Leiden: easyMeeting on Quantum Matter, Cambridge, September 2010.

46. Trends in Spintronics, 2nd NWO-NRF Korean-Dutch workshop, Eindhoven/Amsterdam,The Netherlands June 23 - 27, 2010.

47. APS March Meeting, Portland, U.S.A, March 15-19, 2010.

48. Physics@FOM, Veldhoven, The Netherlands, January 19,20 2010.

49. International Summer School Nicolás Cabrera on Spin Transport and Dynamics in Nanos-tructures, Madrid, Spain, September 14-18 2009

50. Spintronics II symposium of SPIE Optics and Photonics, San Diego, CA, August 2009.

51. “Trends in Theory 2009” 8th biennial symposium of the Dutch Research School of Theo-retical Physics, Dalfsen, May 2009.

52. Cambridge - Leiden: easyMeeting on Quantum Matter, Leiden, May 2009.

53. Workshop “Spin Caloritronics” at the Lorentz Center, Leiden, February 2009.

54. Physics@FOM Veldhoven, Veldhoven, The Netherlands, January 2009.

55. ICAM Workshop, Cambridge, UK, January 2009.

56. Spin Transport in Condensed Matter, The 23rd Nishinomiya-Yukawa Memorial Interna-tional Workshop, Kyoto, Japan, November 2008.

57. CIFAR Quantum Materials Program Meeting, Toronto, Canada, May 2008.

58. APS March Meeting, New Orleans, USA, March 2008.

32

59. Workshop “Disorder in Condensed Matter and Cold Atoms”, September 24-28, 2007,Lorentz Center, Leiden.

60. “SpinNor 2007: spin and charge flow in nanostructures” conference, Centre for AdvancedStudy, Oslo, Norway, June 27-30, 2007.

61. APS March Meeting, Denver, CO, USA, March 2007.

62. Physics@Veldhoven, Veldhoven, Netherlands, January 23-24, 2007.

63. Shell-FOM workshop, Rijsbergen, Netherlands, January 10, 2007.

64. DRSTP Young, Driebergen, Netherlands, October 27-27, 2006.

65. International Workshop on Spin Transfer, Nancy, France, October 2-4, 2006.

66. APS March Meeting, Baltimore, MD, USA, March 2006.

67. COLLECT Meeting, Columbia University, New York City, USA, October 20-22, 2005.

68. CIAR Ultracold Matter Workshop, Toronto, Canada, October 13-15, 2005.

69. APS March Meeting, Los Angeles, USA, March 2005.

70. Boulder Summer School for Condensed Matter and Materials Physics, University of Col-orado at Boulder.

71. APS March Meeting, Montreal, Canada, March 2004.

72. Second International Workshop on the Theory of Quantum Gases and Quantum Coher-ence, Levico (Trento), Italy, June 2003.

73. Workshop on Correlation Effects in Bose Condensates and Optical Lattices at the WilliamI. Fine Theoretical Physics Insitute, Minneapolis, USA, May 2003.

74. 7th International Workshop on Atom Optics and Interferometry, Lunteren, The Nether-lands, September 28th - October 1st, 2002

75. BEC Summer Programme at the ECT*, Trento, Italy, July 2002.

76. Euroconference on the Physics of Atomic Gases at Low Temperature in San Feliu deGuixols, Spain, September 2001/2003.

77. Summerschool “Fundamental Problems in Statistical Mechanics”, Altenberg, Germany,August 20 - September 4, 2001.

78. DRSTP School Statistical Physics and Theory of Condensed matter, Nijmegen, TheNetherlands, May 2000/2001/2002.

79. CECAM Workshop on Dynamics of Attractive BEC’s, Lyon, France, May 2000.

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• other interests and activitiesSports: Ice-skating and cycling.

Music: I have played guitar and drums in several rock bands. I have also been a guitar teacherfor a period of two years.

Other: Reading.

• references1. Prof. dr. P. van der Straten

Address: NanophotonicsDebye Institute for Nanomaterials ScienceP.O. Box 80.0003508 TA Utrechtthe Netherlands

Phone: ++31-30-2532846

E-mail: p.vanderstraten@uu.nl

2. Prof. dr. A.H. MacDonald

Address: The University of Texas at AustinDepartment of Physics1 University Station C1600Austin, TX 78712-0264USA

Phone: 512-232-9113

E-mail: macd@physics.utexas.edu

3. Prof. dr. ir. H.T.C. Stoof (Ph. D. thesis advisor)

Address: Institute for Theoretical PhysicsUniversity of UtrechtLeuvenlaan 43584 CE UtrechtThe Netherlands

Phone: ++31-30-2531871

E-mail: h.t.c.stoof@uu.nl

4. Prof. dr. G.T. Barkema (Undergraduate thesis advisor)

Address: Institute for Theoretical PhysicsUniversity of UtrechtLeuvenlaan 43584 CE UtrechtThe Netherlands

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Phone: ++31-30-2532951

E-mail: g.t.barkema@uu.nl

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